The application of z-copy voltage differencing current conveyor (ZC-VDCC) in simple and interesting first-order all-pass sections has been studied in the present paper. The solutions presented here have presumptions for direct electronic control. Some of proposed circuits offer curious possibilities of control. Electronic controllability of the VDCC allows simultaneous zero and pole frequency adjusting, separated zero or pole frequency adjusting or migration of zero from left half plane to right half plane of complex space. Behavioral models of VDCC based on commercially available devices are proposed and selected type of all-pass section was verified by simulations and also by measurements. Results of simulations, experiments, and theoreti...
This paper introduces a CMOS implementation of filter application based on single Voltage Differenci...
The main goal of this diploma thesis will be realization of tunable frequency filters using voltage ...
This paper presents a simple oscillator with 45 degrees phase shift between output sign...
The application of z-copy voltage differencing current conveyor (ZC-VDCC) in simple and interesting ...
A modified version of voltage differencing current conveyor (VDCC) and its performance in detail is ...
This paper presents a proposal and an experimental analysis of behavioral emulator of so-called z-co...
Interesting type of the second-order electronically controllable multiphase oscillator is introduced...
Presented work deals with applications of the single Z-Copy Controlled-Gain Voltage Differencing Cur...
This paper deals with a very simple functional generator employing single multi-terminal advanced ac...
Presented research introduces active filtering circuits which allow change of the transfer type with...
This paper presents two new applications of modified version of the voltage differencing current con...
This work presents an example of implementation of electronically controllable features to an origin...
This paper presents the results of study on utilization of Z-copy Voltage Controlled Current Followe...
In this paper, a new circuit solution of analogue pseudo-differential second-order all-pass filter o...
By following the most recent trend and progress in analog signal processing, this habilitation thesi...
This paper introduces a CMOS implementation of filter application based on single Voltage Differenci...
The main goal of this diploma thesis will be realization of tunable frequency filters using voltage ...
This paper presents a simple oscillator with 45 degrees phase shift between output sign...
The application of z-copy voltage differencing current conveyor (ZC-VDCC) in simple and interesting ...
A modified version of voltage differencing current conveyor (VDCC) and its performance in detail is ...
This paper presents a proposal and an experimental analysis of behavioral emulator of so-called z-co...
Interesting type of the second-order electronically controllable multiphase oscillator is introduced...
Presented work deals with applications of the single Z-Copy Controlled-Gain Voltage Differencing Cur...
This paper deals with a very simple functional generator employing single multi-terminal advanced ac...
Presented research introduces active filtering circuits which allow change of the transfer type with...
This paper presents two new applications of modified version of the voltage differencing current con...
This work presents an example of implementation of electronically controllable features to an origin...
This paper presents the results of study on utilization of Z-copy Voltage Controlled Current Followe...
In this paper, a new circuit solution of analogue pseudo-differential second-order all-pass filter o...
By following the most recent trend and progress in analog signal processing, this habilitation thesi...
This paper introduces a CMOS implementation of filter application based on single Voltage Differenci...
The main goal of this diploma thesis will be realization of tunable frequency filters using voltage ...
This paper presents a simple oscillator with 45 degrees phase shift between output sign...